USMLE – What's it for

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A Resource for
USMLE Step 1
Preparation
Compiled by the TTUHSC
School of Medicine
Office of Student Affairs
Dr. JoAnn Larsen
Assistant Dean for Student Affairs
USMLE – What’s it for?
In order to become a licensed physician in the United States, individuals must pass a series
of examinations conducted by the National Board of Medical Examiners. These examinations
are the United States Medical Licensing Examinations, or USMLE. Currently there are four
separate exams which must be passed in order to eligible for medical licensure:
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Step
Step
Step
Step
1, usually taken after the completion of the second year of medical school;
2 Clinical Knowledge (CK), usually taken during the fourth year;
2 Clinical Skills (CS), usually taken during the fourth year; and
3, typically taken during the first year of post graduate training.
Step 1 assesses whether you understand and can apply important concepts of the sciences
basic to the practice of medicine, with special emphasis on principles and mechanisms
underlying health, disease, and modes of therapy. Step 1 ensures mastery of not only the
sciences that provide a foundation for the safe and competent practice of medicine in the
present, but also the scientific principles required for maintenance of competence through
lifelong learning.
Step 2 assesses whether you can apply medical knowledge, skills, and understanding of
clinical science essential for the provision of patient care under supervision and includes
emphasis on health promotion and disease prevention. Step 2 ensures that due attention is
devoted to principles of clinical sciences and basic patient-centered skills that provide the
foundation for the safe and competent practice of medicine.
Step 2 Clinical Skills (CS) A clinical skills examination was part of the original design of
USMLE. The NBME was charged with including a test of clinical skills using standardized patients
when such an examination was shown to be valid, reliable, and practical. NBME research and the
work of other organizations administering clinical skills examinations demonstrate that clinical
skills examinations measure skill sets different from those measured by traditional multiplechoice questions. Mastery of clinical and communication skills, as well as cognitive skills, by
individuals seeking medical licensure is important to the protection of the public.
Implementation of the clinical skills examination began in June 2004. The clinical skills
examination is a separately administered component of Step 2 and is referred to as Step 2
Clinical Skills, or Step 2 CS. The computer-based, multiple-choice component of Step 2 is
referred to as Step 2 Clinical Knowledge, or Step 2 CK.
USMLE Step 2 CS is administered at five regional test centers (CSEC Centers) in the United States.
Step 3 assesses whether you can apply medical knowledge and understanding of biomedical
and clinical science essential for the unsupervised practice of medicine, with emphasis on
patient management in ambulatory settings. Step 3 provides a final assessment of physicians
assuming independent responsibility for delivering general medical care.
Requirements for licensure in each state are set by the state’s medical licensing boards. Each
state board may determine the maximum number of times that a person may take each Step
exam and still remain eligible for licensure. In Texas, individuals are limited to three
attempts at each Step exam.
But what we’re really here for is to talk about preparing for Step 1. Step 1 is your first BIG
hurdle. And make no mistake about it, this is a VERY important test. A very good
performance on Step 1 can definitely help you when it comes to securing a top-rate
residency, and likewise a poor score can hurt you and limit your options. And a failure on
Step 1 can eliminate the possibility of some residencies altogether. So it is definitely in your
best interest to do all you can to maximize your chances of doing well, regardless of what
type of residency you may choose to pursue.
How is Step 1 scored?
When you take Step 1, the computer records your responses. After your test ends, your
responses are transmitted to the NBME for scoring. The number of test items you answer
correctly is converted to two equivalent scores, one on a three-digit score scale and one on a
two-digit score scale. Both scales are used for score-reporting purposes.
On the three-digit scale, most Step 1 scores fall between 140 and 260. The mean score for
first-time examinees from accredited medical school programs in the United States is in the
range of 200 to 220, and the standard deviation is approximately 20. Your score report will
include the mean and standard deviation for recent administrations of the examination. The
two-digit score is derived from the three-digit score. It is used in score reporting because
some medical licensing authorities have requirements that include language describing a
"passing score of 75." The two-digit score is derived in such a way that a score of 75 always
corresponds to the minimum passing score.
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Blocks of items are constructed to meet specific content specifications. As a result, the
combination of blocks of items creates a form of the examination that is comparable in
content to all other forms. The percentage of correctly answered items required to pass
varies from form to form. However, examinees typically must answer 60 to 70 percent of
items correctly to achieve a passing score.
What is the minimum passing score?
In December 2006, the Step 1 Committee decided to raise the three-digit score recommended to
pass Step 1 from 182 to 185. The new minimum passing score will be applied to Step 1
examinations for which the first day of testing is on or after January 1, 2007.
What is Texas Tech’s policy on USMLE exams?
Step 1 Exam
• All students will be required to take the United States Medical Licensing
Examination (USMLE) Step 1 at the end of Year Two and no later than June 30.
Excepted from this requirement are students who must remediate a Basic Science
course immediately following Year Two. Such students will complete any
remediation work /exam by June 15 following Year Two and take USMLE Step 1 by
July 31 of Year Three.
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All students who take the USMLE Step 1 no later than June 30 following
completion of Year Two will be eligible to start the Year Three clerkship
rotations in July of that year.
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Passage of USMLE Step 1 is required for promotion to Year Four.
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For students who must repeat USMLE Step 1, leave from the third year curriculum
to prepare for the exam is not required but is strongly recommended and
encouraged. Any request for such leave must be approved by the Associate
Dean for Educational Programs or the Assistant Dean for Student Affairs.
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Students who reach the end of the Year Three curriculum and have not yet passed
Step 1 will be placed on administrative leave of absence for up to one year,
consistent with Section 4.1 of this policy which allows no more than six (6) years
to complete the curriculum for the Doctor of Medicine degree, inclusive of all
leaves, repetition, or decompression of an academic year. Passage of the exam
during this time frame will result in return to the curriculum.
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Inability to pass Step 1 within the one-year leave of absence will result in
withdrawal from the curriculum as stated in the SOM Student Affairs Student
Handbook under Student Leaves of Absence. Appeals regarding this issue will be
handled as outlined in Sections 6, 7, and 8 of the Grading and Promotions policy.
Step 2 Exam
• For students who begin the curriculum in August of 2005 or later, passage of Step
2 Clinical Knowledge and Step 2 Clinical Skills will be required for graduation.
Passing scores must be documented no later than May 1 of the year graduating.
How do I apply for Step 1?
The initial application for Step 1 is done on the Internet. Go to www.nbme.org. Click on
“NBME Licensing Exam Services”, then “National Licensing Examination Services
Website”. In the yellow LOG IN box, please note you do not have a USMLE ID number yet.
Instead, click on “First time user” and follow the instructions. As part of the application,
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you will indicate a 90-day eligibility period during which you plan to take the exam. Payment
is also required at this time ($480).
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Print out the application form which will require your signature and a picture.
Bring the form to the Student Affairs Office for signature – Dr. McMahon, Dr.
Larsen, Tamara Lane, and Karen Nelson are authorized to sign the form.
Then take the form to the Registrar’s Office (2C400 – across from the Synergistic
Center) and have the school seal put on it.
After that, you’re ready to mail it in.
Where do I take the test?
Thomson Prometric, a part of The Thomson Corporation, provides scheduling and test centers
for the computer-based components of USMLE. Step 1 and Step 2 CK are given around the
world at Prometric Test Centers (PTCs).
Prometric test centers are located throughout the U.S. In Texas there are centers in:
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Abilene
Amarillo
Austin (2)
Beaumont
Bedford (2)
Corpus Christi
Dallas (2)
El Paso
Houston (3)
Lubbock
McAllen
Midland
San Antonio (2)
Tyler
Waco
Wichita Falls
How do I schedule my test?
Once your application has been processed, you will receive an email from NBME notifying you
that your application is complete. About a week later, you will receive a second email from
them notifying you that your scheduling permit is available; this message will include
instructions for accessing the electronic scheduling permit using the registration entity's
interactive website.
PRINT OUT YOUR SCHEDULING PERMIT and keep it in a safe place. You MUST bring it
with you to the test center on the day of your test. You will not be allowed to take the exam
without your scheduling permit.
Once you’ve gotten your permit, you may schedule your test online at www.prometric.com
for any available test date that is within your approved 90-day eligibility period. Not all
Prometric centers are open on weekends, and USMLE exams are not necessarily offered every
day the centers are open. Please note that May through July are one of the busiest
periods for these testing centers because of the large USMLE demand during that
time – PLAN AHEAD!
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You will be able to change your test date after you have scheduled it IF your new test date is
still within the 90-day eligibility period. If you must reschedule outside the approved
eligibility period, you will need to reapply and pay an additional fee.
What is the format of the test?
The Step 1 test day is an 8-hour day. The 8 hours includes the test itself as well as break
time. The exam consists of approximately 350 multiple choice questions arranged in blocks
of 50 questions which means you will have about 1.2 minutes per question. During each
block you can answer questions in any order, go back and review questions in the block, and
change answers. Once you have exited a block or the time for that block has expired, you
will no longer be able to review questions or change answers in that block.
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Some blocks are harder than others. Don’t panic if your first block happens to
be a more difficult one.
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The questions are random, so don’t expect a block of pathology questions, a
group of pharmacology questions, etc.
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Some questions will include pictures – histology, gross pathology, CT images, etc.
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Approximately 75% of the questions are SINGLE BEST ANSWER. There will
be anywhere from 3 to 5 answer choices.
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Other questions consist of extended matching – a list of items from which
you must choose the one best answer that corresponds with the numbered items
or questions located below the list.
Can I practice taking the test?
You should acquaint yourself with the test software well before your test date(s). Practice
time is not available on the test day, and test center staff are not authorized to provide
instruction on use of the software. A brief tutorial on the test day provides a review of the
test software, including navigation tools and examination format, prior to beginning the test.
It does not provide an opportunity to practice.
1. You can practice by downloading software from the NBME website
(http://www.usmle.org/Orientation/2007/readme.htm#software). The NBME software
you install has over 100 practice test items and a software tutorial. Some practice
items may include multimedia files, such as video or audio clips.
2. You can schedule a practice test at a Prometric Test Center.
Once your Step 1 application has been processed and you have received your Scheduling
Permit, you are eligible to register for a Practice Session for that examination. Practice
Sessions are available at Thomson Prometric, a part of The Thomson Corporation, test
centers. The Practice Sessions use the same sample test materials that are
available on the USMLE website; however, they do not include any multimedia
items. NO NEW SAMPLE TEST MATERIALS ARE PRESENTED AT PRACTICE
SESSIONS. Those who are eligible to register for a Practice Session may take only one
session per exam registration. Please note that Practice Sessions are not available on
major local holidays and during the first two weeks of January.
Note: The NBME software, known as FRED™, will replace the Prometric software for the
USMLE Practice Session beginning in December 2006. Installation of FRED for the USMLE
Practice Sessions will be phased in over several weeks. If you schedule to take a CBT
Practice Session from December 2006 through January 2007, you might test with
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either the Prometric or FRED test delivery software.
Until this transition is complete, examinees who wish to practice with the actual FRED
software should use the sample materials available at the USMLE website.
The Practice Session is a maximum of 3.5 hours and is divided into 3 1-hour blocks of 46-50
multiple choice test items each. When you complete the session, you will receive a printed
percent correct score.
If you register for a practice session, a YELLOW Scheduling Permit will be mailed to you within
two weeks which will allow you to schedule the Practice Session. Do not schedule a Practice
Session using your permit for the actual Step examination. The $42 fee for the Practice
session must be paid directly to Prometric by credit card at the time you schedule your
appointment.
What’s on the test?
As we have talked about already, the NBME’s Comprehensive Basic Sciences Exam is the closest
thing to the real thing that they will let anyone see. In fact, since ALL of the items written by NBME
are copyrighted, you should be a little leery of anyone other than NBME who claims to have “actual
USMLE questions”. The NBME offers a breakdown of the content areas on the test:
System**
40%–50% General principles
50%–60% Individual organ systems
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hematopoietic/lymphoreticular
nervous/special senses
skin/connective tissue
musculoskeletal
respiratory
cardiovascular
gastrointestinal
renal/urinary
reproductive
endocrine
Process
30%–50%
30%–50%
15%–25%
10%–20%
Normal structure and function
Abnormal processes
Principles of therapeutics
Psychosocial, cultural, occupational and environmental considerations
* Percentages are subject to change at any time. See the USMLE website for the most up-todate information.
** The general principles category includes test items concerning those normal and abnormal
processes that are not limited to specific organ systems. Categories for individual organ
systems include test items concerning those normal and abnormal processes that are system
specific.
NBME also publishes a more detailed outline of the topics covered on the Step 1
exam. Use this as an outline to make sure you are covering all of these topics in
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your study plan. You’ll find the complete outline of what’s on the Step 1 exam at
the end of this book in Appendix A.
How do I prepare for Step 1?
Several things have been proven to help students prepare to do their best of Step 1.
1. LEARN the material you are currently studying in your classes.
Approximately 70% of the questions on the exam are likely to use or combine information in
ways that you have not seen before. It is the purpose of the testing agency to see how adept
you are at taking partial information and, based on that,figuring out an answer you consider
to be a high probability response. And you can’t do that with MEMORIZED material, but you
can do it using material that you have LEARNED.
2. KNOW how to approach multiple choice questions and PRACTICE. Some people
seem to instinctively know how to answer multiple choice questions correctly, others of us
not so much. There are skills that you can learn to help you answer these kinds of test
questions. Here’s how Kaplan recommends approaching vignette styled multiple choice
questions:
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assemble key clues into a mental “snapshot” of the patient.
understand precisely what is being asked
allow a few moments to think, recall, and to anticipate possible answers
compare the given choices to your anticipated answer
mark choices that match best
rule out choices that don’t account for all findings
mark the best answer
Kaplan’s experts say that people who are bad at multiple choice questions focus on
the choices rather than the stems of the questions. This is a very inefficient approach
and one that tends to result in more mistakes. Those who are good at multiple choice
questions focus on the stems, not the choices.
If you always feel that your performance on multiple choice tests doesn’t equate with your
mastery of the material, you might think about having your test taking analyzed. The
University of Missouri at Kansas City’s Institute for Professional Preparation (IPP) offers an
online Step 1 diagnostic test. When analyzed, these tests not only evaluate performance in
each of the seven basic sciences areas, but also look at some 40 other intra-test variables
which can help you gain insight into the types of errors you may be committing as you go
through a test, especially when these errors may be depressing your overall performance.
Variables such as: the amount of time spent on different types of questions; correlations
between the length of a question and the likelihood of answering it successfully; performance
on questions which rely on strict definitions or precise interpretation of technical vocabulary;
and the extent to which you are able to narrow down your choices to two good answers and
the extent to which your second choices are correct, are examples of the intra-test variables
analyzed when you take a "Diagnostic" test. In addition to a summary data sheet showing
your performance in these areas, they may also provide a computer generated six to eight
page report which discusses these variables and gives some concrete suggestions for
minimizing the impact of these "error patterns". This diagnostic test is available for a small
fee. For details and how to order a test, please go to http://www.umkc.edu/ipp/cbt.asp.
They also offer a full-length Mock Board Exam.
Here is a sample Step 1 Diagnostic Test report.
STEP 1 REPORT
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All Step 1 "Diagnostics", "Mock Boards",
to the one shown below. In addition, the
generated six to eight page report which
some concrete suggestions for minimizing
and "Tests" produce a summary similar
"Diagnostic" also provides a computer
discusses these variables and gives
the impact of these "error patterns".
Student Name
PercentCorrect Overall
54
Percent Correct of 2nd Choices
37
Mean Time per Question
62
Category:
% Correct
Mean Time (sec)
Questions Involving Statistics
61
60
Diagnosis Questions
62
53
Questions Involving Judgement
53
51
Process Questions
49
51
Questions Involving Definitions
51
51
Cause Effect Reasoning Questions
51
51
Questions with Graphics
40
61
Questions Requiring Visualization
43
54
Subject:
% Correct
Mean Time (sec)
Anatomy
43
55
Behavioral Sciences
63
54
Biochemistry
37
45
Microbiology
52
45
Pathology
56
48
Pharmacology
45
55
Physiology
65
62
Question Type:
% Correct
Mean Time (sec)
Multiple Choice
49
52
Extended Foils
55
51
Confidence levels:
% Correct
Number
Mean Time (sec)
1 (low)
16
25
62
2
36
22
69
3
33
15
51
4
74
38
52
5 (high)
75
24
26
Cognitive Level:
% Correct
Mean Time (sec)
Recall
52
45
Comprehension
42
59
Application
63
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3. ALLOW enough time to prepare, but not too much. Although you will have
approximately 10 weeks from the time school ends to the deadline for taking Step 1 (June
30), four to six weeks should be plenty of time to prepare for Step 1. Many students in the
past who have taken longer than 6 weeks to prepare later said they felt they took too much
time, and actually lost ground with their studying. Analysis of our own students over the
years shows that you get the most “bang for your buck” by studying for 6 to 9 hours per day
for 4 to 6 weeks. Below you’ll see a graph of hours/day and weeks of studying graphed
against actual Step 1 scores.
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30
3-5 hours per day / 2-4 weeks
3-5 hours per day / 4-6 weeks
25
3-5 hours per day / > 6 weeks
6-9 hours per day / 2- 4 weeks
6-9 hours per day / 4-6 weeks
20
6-9 hours per day / > 6 weeks
>9 hours per day / 2-4 weeks
>9 hours per day / 4-6 weeks
15
>9 hours per day / > 6 weeks
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5
0
<183
183-199
200-215
216-230
>230
4. MAKE a study schedule and stick to it. This is a critical step in successful Step 1
preparation. More detailed information about study schedules is in the following section.
5. STUDY smart. Spending 10 hours a day passively reading study guides or old notes is
much less effective than spending half that amount of time in active study. Explain concepts
out loud to a study partner, practice answering questions by explaining why the right answers
are right and the wrong answers are wrong. If concept mapping works for you, do it. If
there are other methods that work for you, use them.
OTHER STEP 1 ADVICE
Judy Schwenker, Kaplan’s Curriculum Director, talked about the ways in which USMLE exams
are similar to medical practice:
1. you must find key information
2. the information you need may be buried
3. there are distractions
4. there is time pressure
5. you must use probabilities to make decisions
6. you’ll never know it all
7. situations won’t exactly fit what you’ve learned
She also talked about the mistakes most commonly made when preparing for Step 1:
1. passive studying
2. insufficient practice with questions
3. memorizing, not understanding the material
4. inappropriate test day strategies
5. misreading or misinterpreting questions
So where do I start?
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1. Self-assessment. I think all of the experts agree that the first thing you need to do
is take some sort of diagnostic test to see where your areas of strength and weakness
are. Diagnostic tests are available from Kaplan, NBME, and a variety of other online
sources that are listed later under “Other Resources.”
2. Make a study schedule. Lots of sample schedules are out there and links to them
are included later in this notebook. BUT – please remember that these schedules
were made by individual students and the schedules reflect those students’ individual
circumstances. When you prepare your own study schedule, you must first look at
your own diagnostic test results and prepare your schedule with more time allotted to
weaker subjects, and less time to stronger subjects. Individual study pace also needs
to be factored in, as some accomplish more per study day than others.
Here’s some advice from Kaplan’s Judy Schwenker:
(1) Take a comprehensive test to begin as a measure of where your recall is right now. Use
the Kaplan diagnostic test if you have taken it.
(2) Once you know your percent correct score for each subject, use this information to
decide the relative amount of review time to put into each area. For example, if Physiology is
20% lower than Microbiology, you should be spending at least 20% MORE time reviewing
Physiology than you put into Micro.
(3) As you begin to review a subject, look over some questions on the material before you
start to review. This will help keep you focused on what is important to know and show you
how you will need to use the information on the test.
(4) As you move through the material, create your own condensed summaries of the key
material so you can review these right before test day. 20-30 pages per subject is a decent
size to shoot for, because otherwise you will end up taking too detailed notes and they won't
help at the end.
(5) As you finish a subject, use QBank to create and take a test with maybe 50 items from
each subject that you have completed up to that point. So if you have finished Anatomy and
Physiology, you would do a 100-item test under timed, test mode assessing those 2 areas.
By the end, you will be taking long practice tests under test conditions that cover all the
completed subject areas. This helps keep the earlier material in memory, and gives you a
more accurate picture of your preparedness. It also gives you good practice for the mental
stamina and pacing needed on test day.
(6) Plan time during the final 2-3 weeks to do nothing but review your own summaries and
take increasing numbers of simulated test modules of 50 items each under timed conditions
(one hour per module). This is the final "get it all fresh in mind, build mental stamina, and
intensive test practice" phase, which should lead right up to 2 days before your actual test
date. Our experience has shown that students who are doing 70% or better on our fulllength simulated exams (or comparable practice tests created with Qbank or IV Qbank) by
their test dates DO PASS, so this is a good level to aim for. You may also choose to take one
of the NBME tests to get a predicted USMLE score. If you do decide to do this, be advised
that based on feedback I have gotten on the board, Form 1 seems to be the most reliable.
(7) Don’t study anything the day before. Plan something fun and mindless, because study
within 24 hours of the exam actually hurts your ability to recall from earlier reviewing.
Additional Advice from Kaplan…
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Tips for the Week Before
During the last few days before the exam you should be tapering off your studying, and
getting into mental and physical shape.
1. This is not the time for cramming in new material... but a time to organize and
integrate what you already know. Work on making what you know more accessible.
2. Review keywords, phrases and concepts. Look over your summary notes one more
time. This is the time to drill yourself on essential information. The key is to practice recall,
not simply read over the material again. What you need to know is probably already in your
head. Your task now is to train yourself to access it when you need it. Doing practice
questions is a good way to reinforce your recall skills. Use them to clarify your understanding
of key details.
3. No one can know everything that is asked on this exam. Be honest with yourself
about what you do and do not know. Knowing that you do not know something gives you
more of a sense of control on the exam and makes you less likely to panic when you
encounter the material and/or waste time on questions you are not likely to get correct.
4. Get yourself onto the right time schedule. Wake up every day at the same time you
will need to on the day of the exam. This will get your circadian rhythm coordinated with the
exam schedule. Do not nap between 8:00 am and 5:00 pm. Otherwise you will accustom
your body to shutting down during the critical exam hours. If you get up at the right time
each day, you will also find it easier to fall asleep at night. By getting into the proper sleepwake cycle, you will find it easier to get to sleep the night of the exam as well.
5. You should be getting a sufficient amount of sleep. For most people that means at
least 6 to 7 hours a night. Sleep is an essential time for your brain to consolidate what you
have learned. You need sleep; it makes you a more efficient learner when you are awake.
6. Take some time each day to relax. Have a good meal. Take a walk in the fresh air.
Find time for exercise. The change of pace will refresh you and the physical activity will help
you relax and sleep at night.
7. If you haven't done so already, visit the Prometric Test Center where you will be
taking the exam. It will be indicated on your exam entry ticket. This will ensure you know
how to get there and how much time you should allow for the commute. You can see where
you should park, and see what the computer set-up is like.
8. Review the tutorial at http://www.usmle.org/step1/default.htm. Become familiar with
the interface, the location of key information on the screen and how to navigate between
screens. If you walk into the exam familiar with the exam, you will not have to use any of
your valuable break time to do this on the test day.
Kaplan’s Tips For The Day Before The Exam
1. Take the day off from studying. This is your day to relax and gather your strength
before the main event. Get out of bed at the same time you will have to get up the next
day. If you feel you must study, limit yourself to reviewing your own notes and flashcards.
2. Have some fun. Go for a walk. Listen to your favorite music. Go see a good comedy or
an action movie that will allow cathartic release. Go shopping. Spend time with a
significant other. Do what ever you like. You have worked hard and deserve it.
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3. Make sure that you have checked out the basics for the exam:
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Have you worked through the USMLE tutorial?
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Do you know where the Prometric center is, and how to get there?
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Do you have alternative transportation if, for example, your car does
not start?
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Do you trust your alarm clock to wake you up in time? If not, make
arrangements with friends as back up. You want to be sure to wake up
rested, refreshed, and on time.
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Lay out what you'll need for the exam before you go to sleep. This
includes photo identification, scheduling permit and confirmation
number, as well as any personal items like eyeglasses. While you're at
it, don't forget to pack a lunch!
4. Call your friends and classmates and make some plans to celebrate. You'll need to
blow off some steam anyhow, and talking with colleagues will remind you that you are not
in this by yourself.
5. Be sure to do some physical activity. Just taking a walk for an hour will help relax you.
6. Get a good night's sleep. To help you sleep, consider a hot bath or warm milk. Avoid
taking sleeping medication as it may leave you groggy in the morning.
Kaplan’s Tips for test day…
1. Arrive at the Prometric Test Center 30 minutes early so you are not rushed and
have time to get organized. You will be given a locker to store your personal items and
then assigned a computer station. Remember that you have a total of seven hours to
complete 350 questions, and a total of one hour to be used throughout the day for breaks
and lunch.
2. To cope with fatigue, you will need to schedule breaks. Our recommended schedule for
the exam is:
Question Block
Break time at end of Block
Block
Block
Block
Block
Block
Block
Block
No break
5 minute break
5 minute break
30 minute lunch break
No break
10 minute break
Done!
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3
4
5
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This allows you 10 minutes extra to use as needed. Remember that you will need to sign in
and out when you take breaks. You should also be aware that if you leave the exam room
during a block, it will be marked as an irregularity in your testing session. Therefore, you
need to consider after each block whether you want to take a bathroom break.
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3. Start with the beginning of the question block and work your way to the end. The idea
here is to get into a rhythm that will help create what one psychologist calls a "Flow" experience.
The flow experience is a state of optimal concentration and maximal performance.
4. Do not skip any questions. If you don't know it when you come to it, you are not likely
to know it later. Skipping around wastes time and can end up confusing you. Deal with each
question as you come to it, answer it as best you can, and move on to the next question.
5. Limit your use of the marking feature to no more than two or three questions per
block. Of course you should answer each question as you come to it, but you may want to
double-check yourself on a few questions. The marking feature lets you return to review and
reconsider questions if you have time left over. Used correctly, marking will help you revisit
questions where you have a high probability of getting the answer correct. Misused, marking
causes you to not give a question your full attention the first time around. You simply may not have
time to go back and look at questions you have marked, especially if you mark a lot of them.
6. Be cautious about changing answers. In general, your odds of changing a correct
answer to a wrong one are so much higher than the reverse that it is simply not worth the
risk. If you change an answer, you are most likely making it wrong! Your first impulse is
usually the correct one. Stay with it unless some clear insight occurs to you.
7. If you finish a question block with time left over, go back and "check" only those
answers that you have previously marked. Checking almost always leads to changing and tends
to reduce your score. If you have a spare moment, make sure that you have entered an answer for
every question in the block and then, relax. Sit, take a break, and mentally prepare yourself for the
next block of questions. Focus on the questions to come, not the ones that are past.
8. Monitor your time. Know how much you have left, so you do not find yourself rushed at
the end. Work on your pacing from the beginning of the question block. Check your watch
every 10 questions to make sure you are on the correct pace to finish. If you pace yourself
throughout the block, you should not be squeezed for time at the end.
9. Relax. During the breaks between question blocks, try to relax and not think back over
the exam. The desire to recall questions is strong, but not helpful. Those questions are in the
past; you will never see them again. Focus on relaxing and making the most of your break.
Remember, you will always tend to remember those questions you get wrong.
AND HERE’S SOME PREP ADVICE FROM SOME OF OUR STUDENTS…
“I’d recommend studying no more than about 5 weeks. Any more and you will start
forgetting things you learned earlier. I caution you to take what your classmates say about
their exam with a grain of salt, because every exam is different. Also, “buzzwords” are not
typically used on Step 1. Rather than use the words “smudge cells”, for example, they’ll
probably just show you a blood smear.”
“Have a planned study schedule that you stick to. If you fall behind, you’ll have a hard time
getting through everything and still being able to review material.”
“Do not use First Aid or the all-inclusive books as the sole study aid. If possible, use the High
Yield books.”
“Start early, stick to a schedule, try not to become overwhelmed with all available resources.
Pick a couple for each subject because in my experience you cannot absorb it all. Use First
Aid as a scaffold – it really is helpful for recall association.”
12
“The last week/few days before Step are very distracting – don’t give yourself too much time
to study, 4-6 weeks worked for me. But be prepared mentally for the anxiety the week
before the test – focus on easier subjects to review.”
What about review courses?
Some students find the structure and discipline of a review course very helpful as part of
their Step 1 preparation. Unfortunately some programs schedule their courses at times of
the year that don’t coincide with most first-time takers’ preparation efforts. Nevertheless,
here is the information on review courses that are available.
Marshall University Joan C Edwards School of Medicine
Third Annual USMLE Step 1 Review Course
May 14 - June 6, 2007
Huntington, WV
Course Information:
•
17 day course
•
Approximately 120 lecture hours
•
8am - 4pm, Monday - Friday (no class on Monday, May 28 -- Memorial Day)
•
Over 20 award-winning faculty with expertise in USMLE Review
•
Access to JCESOM USMLE website, including practice exams with feedback
Cost: $1,500 per person (does not include hotel accommodations)
Space is limited to 100 registrants & guaranteed only after payment is received
Kaplan
Visit www.kaplan.com for more information.
Live Prep courses are 6-7 weeks in length. Price is $3,399 – does not include food or
accommodations.
Step 1 Live Retreat – price is $5,599 – includes food and accommodations.
Other programs are available.
Location
Atlanta Area
Chicago
Chicago Area
Dallas Area
D.C.
Houston
Miami
Step 1
Jan. 8 - Feb. 17, 2007***
Mar. 12 - Apr. 29, 2007
Jun. 11 - Sep. 30, 2007**
Jun. 18 - Sep. 23, 2007*
Apr. 30 - Jun. 10, 2007***
Aug. 27 - Oct. 6, 2007***
Aug. 6 - Sep. 16, 2007***
Jan. 22 - Mar. 11, 2007
Aug. 13 - Sep. 30, 2007
Apr. 23 - Jun. 10, 2007
Oct. 1 - Nov. 18, 2007
Apr. 16 - Jun. 17, 2007†
Oct. 15 - Dec. 16, 2007†
13
Newark (NJMI)
New York
Pasadena
Jan. 8 - Feb. 25, 2007
Mar. 5 - Jul. 8, 2007**
Aug. 27 - Dec. 16, 2007**
Sep. 3 - Dec. 9, 2007*
Oct. 1 - Nov. 18, 2007
Feb. 26 - Apr. 15, 2007
Jun. 18 - Aug. 5, 2007
Sep. 10 - Oct. 28, 2007
Jan. 8 - Feb. 25, 2007
May 21 - Jul. 1, 2007
May 29 - Jul. 9, 2007***
Philadelphia
Area
*ExtendedPrep **KMI ***Step 1 Prep Retreat
†Evenings and Weekends ††Weekends only †††Step 2 Prep Retreat
Note: Any of the above LivePrep courses can be purchased as part of a DeluxePrep Package.
University of Missouri at Kansas City – Institute for Professional
Preparation
For more information visit http://www.umkc.edu/ipp/programs.asp
January 8 to March 16, 2007
This 10 -week, highly interactive program is for students who have a history of difficulty
with standardized tests; including multiple unsuccessful attempts at Step 1. It focuses
on clinical correlations in Biochemistry, Physiology, and Pathology, Microbiology and
microbiology related biochemistry. These are the fields that typically cause examinees the
greatest difficulty. Other areas included are Anatomy, Pharmacology, Embryology, Genetics,
Biostatistics and Behavioral Science.
A typical schedule for Monday through Friday involves an eight hour day. Some weekend
sessions are also scheduled. This schedule includes a variety of small group interactive
instruction led by trained small group facilitators and formal lectures presented by
experienced basic science lecturers. The instructional program strengthens the basic
sciences background of all participants. Computerized examinations permit staff, meeting
individually with students, to analyze and monitor students’ progress as they approach their
examination.
The program includes: (a) personalized diagnostics, (b) screening testing, (c) mock boards,
(d) pathology case studies, (e) clinical and fundamental pharmacology, (f) computer based
testing and (g) the hallmark of our programs, question group. Tuition is $6,400, housing
costs are additional.
May 7 to June 1, 2007
First time test takers and repeaters with scores at 168 or above. This program is
most beneficial for a student wanting a focused review of the high impact topics in a
structured, question based format.
The Summer Program offers an intensive four week review of the General Principles of
Pathology, presented by a nationally respected pathologist; critical clinical correlations
explained in Biochemistry, Pharmacology, and Physiology and a Behavioral Sciences/Ethics
review. Students interact with one another and the instructors as they sort out concepts that
they understand incompletely.
Question-based tutorials help participants to develop the kind and quality of thinking required
14
for success on Step 1. Daily small group lecture review sessions will aid in organization and
retention. Emphasis is placed on understanding of the common diseases and related
treatment regimens. In addition, the program will provide a diagnostic, selected subject
exams, and a mock board. Tuition is $3000.
August 28 to October 20, 2006 (dates not yet announced for 2007)
This 8-week, live lecture program is designed both for first time test takers who
desire a review of basic science concepts and for the student who has scored at 167
or above on Step 1 and who is planning on sitting for the USMLE Step 1 in early
November. Students with a history of difficulty on standardized exams are more likely to be
successful with our longer preparation program beginning in January.
As with all of our courses, focus on understanding the material covered, practicing
appropriate test taking strategies, and applying all skills acquired and content reviewed in a
computer based testing environment. This live lecture program will include a review of
Bacteriology, Pathology, Physiology, Immunology, Virology, and Biochemistry. Tuition is
$4,600. Housing costs are additional.
FALCON PHYSICIAN REVIEWS
For more complete information visit http://www.falconreviews.com/index.htm .
Complete review package includes:
• Books
• Luxury Hotel Accommodations
• Daily Continental Breakfast and Lunch
• Over 325 contact hours (Step 1)
• Over 15,000 USMLE Type Exam Questions
• Ground transportation to and from the airport.
• Shuttle Service to shopping, movies, and other areas of interest
Step 1 Programs include information from: Anatomy, Histology, Biochemistry, Microbiology,
Embryology, Physiology, Neurology, Pharmacology, and Behavioral Science, plus Clinical
Vignettes, Case Histories, Glossy Slides, and Sample Tests.
REVIEW COURSE DATES for 2007:
January 8 to February 23 - Course Full
May 7 to June 22
May 14 to June 29 (Miami)
May 14 to June 29 (Philadelphia, PA area)
July 16 to August 31
August 20 to October 5
October 1 to November 16
Unless otherwise noted, all courses are held in Dallas.
Cost of course:
double occupancy - $4,550; single occupancy - $5, 550.
Northwestern Medical Review
For more information visit http://www.northwesternmedicalreview.com/index.php
(from the website):Northwestern Medical Review offers live-lecture courses in preparation for
the USMLE and COMLEX Step/Level 1, 2 and 3 examinations. These courses are designed to
allow current medical students or graduating international physicians to pass their
examinations in their first attempt or to raise their previous scores to a satisfactory level.
Review plans ranging from a 3-day quick review course to a 15-day comprehensive
15
preparation are available.
Courses are taught by distinguished and experienced medical boards lecturers, many of
whom have authored best-selling Northwestern Review books or have mastered multimedia
TALLP methodology.
Programs are offered at various medical schools or convention sites within the USA, Caribbean
Islands, and select sites in Asia and Europe. All courses include complete sets of study materials,
review books, pretests, audio CDs and USMLE web-based question bank access.
NBI 300 (STEP I) 10, 15, and 21-DAY USMLE
REVIEW
LOCATION
DATE
East Lansing, MI
January 12 - 21,
2007
East Lansing, MI
February 13 - 22,
2007
Philadelphia, PA
Extended Weekend
Plan
standard TUITION RATES
NBI 300 (21-day)
$1780
NBI 300 (15-day)
$1380
NBI 300 (10-day)
$1080
Feb 24 - 25, March 3
- 4, March 10 - 11,
April 14 - 15, April 21
- 22, and May 5 - 6,
2007
Saturdays and
Sunday mornings
East Lansing, MI
May 21- 30, 2007
East Lansing, MI
June 2 - 11, 2007
FOR STUDENTS WITH DOCUMENTED LEARNING DISABILITIES OR ADHD
Marshall University Medical H.E.L.P Program
For more information visit http://www.marshall.edu/medicalhelp/
(from the website) The Marshall University Medical H.E.L.P. Program began in 1986 with a
vision of helping medical students and physicians with learning disabilities and/or ADHD
succeed academically. Since that time, Marshall Medical H.E.L.P. has worked with
approximately 600 students from across the United States and several foreign countries. A
five week intensive course is held four times each year in January, March, June, and
September, with individual one on one sessions available the rest of the year. Throughout
the intensive program topics such as reading and comprehension, reading rate, learning
strategies, memorization techniques, test-taking skills, error analysis, and self-esteem are
targeted for improvement.
This 5-week course is held four times a year: January, March, June, and September.
The cost is $4,500 and does not include accommodations.
16
OTHER STUDY RESOURCES…
There are probably as many more websites and books available than those that are listed
here. If you find a book or website that you find helpful, please send it on to me so I can
include it in our list of resources. Remember that you can easily get overwhelmed by using
too many resources as you study, so pick out the few that seem to work best with your style
of studying and learning and go with it. What works for one person may not work for
another, so be careful about using a book just because someone else said it worked for them.
Try it for yourself – if it doesn’t fit you, move on to something that does. A number of books
are available for check-out in the Student Affairs Office library.
For online question banks, review books, etc.
www.usmlesteps123.com
www.usmlerx.com
http://www.exammaster2.com/wdsentry/ttuhsc-1.htm
www.score95.com
www.boardprep.net/stepone.html
www.apextesting.com
BOOKS
•
NMS Review for Step 1
•
High-Yield Pathology
•
Step Up: A High-Yield, Systems-Based Review for USMLE Step 1
•
USMLE Step 1 Recall: Buzzwords for the Boards
•
High-Yield Comprehensive USMLE Step 1 Review
•
Kaplan QBook
•
First Aid Cases for USMLE Step 1
•
USMLE Step 1 Secrets
•
First Aid Q&A for USMLE Step 1
•
Goljan’s Rapid Review of Pathology
•
Robbins Review of Pathology
•
Princeton Review USMLE Review
•
Blueprints – Step 1 Q&A
•
Appleton & Lange USMLE Step 1
•
Platinum Vignettes (Elsevier)
•
Rapid Review Series - USMLE Step 1
Study Schedules
One of the biggest pieces of advice that students and experts alike give surrounds the idea of
developing and sticking to a study schedule. Again, everybody has their own idea of what
works for them and what doesn’t, or what topics need to be studied more, but you also need
to have a starting point. Remember you must create your own study schedule based on
YOUR individual needs. But here is a website with PDF files of a dozen or so sample study
17
schedules so you can get an idea of where to start – most of them are about 4 weeks or so.
http://www.bumc.bu.edu/Dept/Content.aspx?DepartmentID=42&PageID=7554
You’ll find a sample 28-day study schedule at the back of this book in Appendix B.
APPENDIX A – USMLE Detailed Outline of Topics Covered on Step 1
GENERAL PRINCIPLES
Biochemistry and molecular biology
•
•
•
gene expression: DNA structure, replication, and exchange
o DNA structure: single- and double-stranded DNA, stabilizing forces,
supercoiling
o analysis of DNA: sequencing, restriction analysis, PCR amplification,
hybridization
o DNA replication, mutation, repair, degradation, and inactivation
o gene structure and organization; chromosomes; centromere, telomere
o recombination, insertion sequences, transposons
o mechanisms of genetic exchange, including transformation, transduction,
conjugation, crossover, recombination, linkage
o plasmids and bacteriophages
gene expression: transcription, including defects
o transcription of DNA into RNA, enzymatic reactions, RNA, RNA degradation
o regulation: cis-regulatory elements, transcription factors, enhancers,
promoters, silencers, repressants, splicing
gene expression: translation, including defects
o the genetic code
o structure and function of tRNA
o structure and function of ribosomes
o protein synthesis
o regulation of translation
18
post-translational modifications, including phosphorylation, addition of CHO
units
o protein degradation
structure and function of proteins
o principles of protein structure and folding
o enzymes: kinetics, reaction mechanisms
o structural and regulatory proteins: ligand binding, self-assembly
o regulatory properties
energy metabolism, including metabolic sequences and regulation
o generation of energy from carbohydrates, fatty acids, and essential amino
acids; glycolysis, pentose phosphate pathway, tricarboxylic acid cycle,
ketogenesis, electron transport and oxidative phosphorylation, glycogenolysis
o storage of energy: gluconeogenesis, glycogenesis, fatty acid and triglyceride
synthesis
o thermodynamics: free energy, chemical equilibria and group transfer potential,
energetics of ATP and other high-energy compounds
metabolic pathways of small molecules and associated diseases
o biosynthesis and degradation of amino acids (eg, homocystinuria, maple syrup
urine disease)
o biosynthesis and degradation of purine and pyrimidine nucleotides
o biosynthesis and degradation of lipids (eg, dyslipidemias, carnitine deficiency,
adrenogenital syndromes)
o biosynthesis and degradation of porphyrins
o galactosemia and other small sugar disorders
biosynthesis and degradation of other macromolecules and associated abnormalities,
complex carbohydrates (eg, lysosomal storage disease), glycoproteins, and
proteoglycans (eg, type II glycogen storage disease)
o
•
•
•
•
Biology of cells
•
•
•
•
•
•
•
•
•
•
•
•
structure and function of cell components (eg, nucleus, cytoskeleton, endoplasmic
reticulum, plasma membrane)
signal transduction (including basic principles, receptors and channels, second
messengers, signal transduction pathways)
cell-cell and cell-matrix adhesion
cell motility
intracellular sorting (eg, trafficking, endocytosis)
cellular homeostasis (eg, turnover, pH maintenance, proteasome, ions, soluble proteins)
cell cycle (eg, mitosis, meiosis, structure of spindle apparatus, cell cycle regulation)
structure and function of basic tissue components (including epithelial cells, connective
tissue cells, muscle cells, nerve cells, and extracellular matrix)
adaptive cell response to injury
intracellular accumulations (eg, pigments, fats, proteins, carbohydrates, minerals,
inclusions, vacuoles)
mechanisms of injury and necrosis
apoptosis
Human development and genetics
•
•
•
•
embryogenesis: programmed gene expression, tissue differentiation and
morphogenesis, homeotic genes, and developmental regulation of gene expression
congenital abnormalities: principles, patterns of anomalies, dysmorphogenesis
principles of pedigree analysis, including inheritance patterns, occurrence and
recurrence risk determination
population genetics: Hardy-Weinberg law, founder effects, mutation-selection equilibrium
19
•
•
genetic mechanisms: chromosomal abnormalities, mendelian inheritance,
multifactorial diseases
clinical genetics, including genetic testing, prenatal diagnosis, newborn screening,
genetic counseling/ethics, gene therapy
Biology of tissue response to disease
•
•
•
inflammation, including cells and mediators
o acute inflammation and mediator systems
o vascular response to injury, including mediators
o inflammatory cell recruitment, including adherence and cell migration, and
phagocytosis
o bactericidal mechanisms and tissue injury
o clinical manifestations (eg, pain, fever, leukocytosis, leukemoid reaction, and chills)
o chronic inflammation
reparative processes
o wound healing, hemostasis, and repair: thrombosis, granulation tissue,
angiogenesis, fibrosis, scar/keloid formation
o regenerative processes
neoplasia
o classification, histologic diagnosis
o grading and staging of neoplasms
o cell biology, biochemistry, and molecular biology of neoplastic cells:
transformation, oncogenes, altered cell differentiation, and proliferation
o hereditary neoplastic disorders
o invasion and metastasis
o tumor immunology
o paraneoplastic manifestations of cancer
o cancer epidemiology and prevention
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
progression through the life cycle, including birth through senescence
o cognitive, language, motor skills, and social and interpersonal development
o sexual development (eg, puberty, menopause)
o influence of developmental stage on physician-patient interview
psychologic and social factors influencing patient behavior
o personality traits or coping style, including coping mechanisms
o psychodynamic and behavioral factors, related past experience
o family and cultural factors, including socioeconomic status, ethnicity, and gender
o adaptive and maladaptive behavioral responses to stress and illness (eg, drugseeking behavior, sleep deprivation)
o interactions between the patient and the physician or the health care system
(eg, transference)
o patient adherence, including general and adolescent
patient interviewing, consultation, and interactions with the family
o establishing and maintaining rapport
o data gathering
o approaches to patient education
o enticing patients to make lifestyle changes
o communicating bad news
o “difficult” interviews (eg, anxious or angry patients)
o multicultural ethnic characteristics
medical ethics, jurisprudence, and professional behavior
20
o
o
o
o
o
o
o
o
o
consent and informed consent to treatment
physician-patient relationships (eg, ethical conduct, confidentiality)
death and dying
birth-related issues
issues related to patient participation in research
interactions with other health professionals (eg, referral)
sexuality and the profession; other “boundary” issues
ethics of managed care
organization and cost of health care delivery
Multisystem processes
•
•
•
•
nutrition
o generation, expenditure, and storage of energy at the whole-body level
o assessment of nutritional status across the life span, including calories, protein,
essential nutrients, hypoalimentation
o functions of nutrients, including essential, trans-fatty acids, cholesterol
o protein-calorie malnutrition
o vitamin deficiencies and/or toxicities
o mineral deficiencies and toxicities
o eating disorders (eg, obesity, anorexia, bulimia)
temperature regulation
adaptation to environmental extremes, including occupational exposures
o physical and associated disorders (eg, temperature, radiation, burns, decreased
atmospheric pressure, high-altitude sickness, increased water pressure)
o chemical (eg, gases, vapors, smoke inhalation, agricultural hazards, volatile
organic solvents, heavy metals, principles of poisoning and therapy)
fluid, electrolyte, and acid-base balance and disorders (eg, dehydration, acidosis, alkalosis)
Pharmacodynamic and pharmacokinetic processes
•
•
•
•
•
general principles
o pharmacokinetics: absorption, distribution, metabolism, excretion, dosage intervals
o mechanisms of drug action, structure-activity relationships
o concentration- and dose-effect relationships (eg, efficacy, potency), types of
agonists and antagonists and their actions
o individual factors altering pharmacokinetics and pharmacodynamics (eg, age,
gender, disease, tolerance, compliance, body weight, metabolic proficiency,
pharmacogenetics)
o drug side effects, overdosage, toxicology
o drug interactions
o regulatory issues (eg, drug development, approval, scheduling)
general properties of autacoids, including peptides and analogs, biogenic amines,
prostanoids and their inhibitors, and smooth muscle/endothelial autacoids
general principles of autonomic pharmacology
general properties of antimicrobials, including mechanisms of action and resistance
general properties of antineoplastic agents and immunosuppressants, including drug
effects on rapidly dividing mammalian cells
Microbial biology and infection
•
•
microbial classification and its basis
bacteria and bacterial diseases
o structure and composition
21
•
•
•
•
o metabolism, physiology, and regulation
o genetics
o nature and mechanisms of action of virulence factors
o pathophysiology of infection
o epidemiology and ecology
o principles of cultivation, assay, and laboratory diagnosis
viruses and viral diseases
o physical and chemical properties
o replication
o genetics
o principles of cultivation, assay, and laboratory diagnosis
o molecular basis of pathogenesis
o pathophysiology of infection
o latent and persistent infections
o epidemiology
o oncogenic viruses
fungi and fungal infections
o structure, physiology, cultivation, and laboratory diagnosis
o pathogenesis and epidemiology
parasites and parasitic diseases
o structure, physiology, and laboratory diagnosis
o pathogenesis and epidemiology
principles of sterilization and pure culture technique
Immune responses
•
•
•
•
•
•
•
•
•
•
•
production and function of granulocytes, natural killer cells, and macrophages
production and function of T lymphocytes, T-lymphocyte receptors
production and function of B lymphocytes and plasma cells; immunoglobulin and
antibodies: structure and biologic properties
antigenicity and immunogenicity; antigen presentation; cell activation and regulation;
tolerance and clonal deletion
immunologic mediators: chemistry, function, molecular biology, classic and alternative
complement pathways, cytokines, chemokines
immunogenetics; MHC structure and function, class I, II molecules; erythrocyte antigens
immunizations: vaccines, protective immunity
alterations in immunologic function
o T- or B-lymphocyte deficiencies (eg, DiGeorge syndrome)
o deficiencies of phagocytic cells
o combined immunodeficiency disease
o HIV infection/AIDS and other acquired disorders of immune responsiveness
o drug-induced alterations in immune responses, immunopharmacology
immunologically mediated disorders
o hypersensitivity (types I–IV)
o transplant and transplant rejection
o autoimmune disorders
o risks of transplantation, transfusion (eg, graft-versus-host disease)
o isoimmunization, hemolytic disease of the newborn
o immunopathogenesis
immunologic principles underlying diagnostic laboratory tests (eg, ELISA, complement
fixation, RIA, agglutination)
innate immunity
Quantitative methods
22
•
•
•
fundamental concepts of measurement
o scales of measurement
o distribution, central tendency, variability, probability
o disease prevalence and incidence
o disease outcomes (eg, fatality rates)
o associations (eg, correlation and covariance)
o health impact (eg, risk differences and ratios)
o sensitivity, specificity, predictive values
fundamental concepts of study design
o types of experimental studies (eg, clinical trials, community intervention trials)
o types of observational studies (eg, cohort, case-control, cross-sectional, case
series, community surveys)
o sampling and sample size
o subject selection and exposure allocation (eg, randomization, stratification,
self-selection, systematic assignment)
o outcome assessment
o internal and external validity
fundamental concepts of hypothesis testing and statistical inference
o confidence intervals
o statistical significance and Type I error
o statistical power and Type II error
__________________________________________________________
HEMATOPOIETIC AND LYMPHORETICULAR SYSTEMS
Normal processes
•
•
•
•
embryonic development, fetal maturation, and perinatal changes
organ structure and function
cell/tissue structure and function
o production and function of erythrocytes, hemoglobin, O2 and CO2 transport,
transport proteins
o production and function of leukocytes and the lymphoreticular system
o production and function of platelets
o production and function of coagulation and fibrinolytic factors
repair, regeneration, and changes associated with stage of life
Abnormal processes
•
•
•
•
infectious, inflammatory, and immunologic disorders
o infections of the blood, reticuloendothelial system, and lymphatics
o allergic and anaphylactic reactions and other immunopathologic mechanisms
o acquired disorders of immune deficiency
o autoimmunity and autoimmune diseases (eg, Coombs positive hemolytic
anemia, cryoglobulinemias, ITP)
o anemia of chronic disease
o transfusion complications, transplant rejection
traumatic and mechanical injury (eg, mechanical injury to erythrocytes, splenic rupture)
neoplastic disorders (eg, lymphoma, leukemia, multiple myeloma)
metabolic and regulatory disorders, including acquired and congenital
o anemias and cytopenias (eg, iron deficiency anemia, hemoglobinopathies,
hereditary spherocytosis)
o cythemia
o hemorrhagic and hemostatic disorders (eg, coagulopathies, DIC)
23
•
•
•
o bleeding secondary to platelet disorders (eg, von Willebrand)
vascular and endothelial disorders (eg, effects and complications of splenectomy,
hypersplenism, TTP, hemolytic-uremic syndrome)
systemic disorders affecting the hematopoietic and lymphoreticular system (eg,
nutritional deficiencies, systemic lupus erythematosus)
idiopathic disorders
Principles of therapeutics
•
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the hematopoietic system
o blood and blood products
o treatment of anemia, drugs stimulating erythrocyte production (eg, erythropoietin)
o drugs stimulating leukocyte production (eg, G-CSF, GM-CSF)
o anticoagulants, thrombolytic drugs
o antiplatelet drugs
o antimicrobials (eg, antimalarials, anti-HIV)
o antineoplastic and immunosuppressive drugs
o drugs used to treat acquired disorders of immune responsiveness
other therapeutic modalities (eg, splenectomy, chelating agents, radiation therapy for
lymphomas, plasmapheresis)
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
emotional and behavioral factors (eg, diet, depression and immune responses, “blood
doping” among athletes)
influence on person, family, and society (eg, childhood leukemia)
occupational and other environmental risk factors (eg, heavy metals, hydrocarbons, lead)
gender and ethnic factors (eg, herbal treatments with bone marrow depression)
CENTRAL AND PERIPHERAL NERVOUS SYSTEMS
Normal processes
•
•
•
embryonic development, fetal maturation, and perinatal changes, including neural
tube derivatives, cerebral ventricles, neural crest derivatives
organ structure and function
o spinal cord, including gross anatomy, blood supply, and spinal reflexes
o brain stem, including cranial nerves and nuclei, reticular formation, gross
anatomy, and blood supply
o brain, including gross anatomy and blood supply; cognition, language,
memory; hypothalamic function; limbic system and emotional behavior;
circadian rhythms and sleep; control of eye movement
o sensory systems, including proprioception, pain, vision, hearing, balance, taste,
and olfaction
o motor systems, including brain and spinal cord, basal ganglia and cerebellum
o autonomic nervous system
o peripheral nerve
cell/tissue structure and function
24
axonal transport
excitable properties of neurons, axons and dendrites, including channels
synthesis, storage, release, reuptake, and degradation of neurotransmitters
and neuromodulators
o pre- and postsynaptic receptor interactions, trophic and growth factors
o brain metabolism
o glia, myelin
o brain homeostasis: blood-brain barrier; cerebrospinal fluid formation and flow;
choroid plexus
repair, regeneration, and changes associated with stage of life
o
o
o
•
Abnormal processes
•
•
•
•
•
•
•
•
•
•
•
•
infectious, inflammatory, and immunologic disorders (eg, meningitis, multiple
sclerosis, myasthenia gravis)
traumatic and mechanical disorders (eg, subdural and epidural hematomas, cord
compression, peripheral nerve injury)
neoplastic disorders, including primary and metastatic
acquired metabolic and regulatory disorders (eg, delirium, Reye syndrome)
vascular disorders (eg, cerebrovascular occlusion, venous sinus thrombosis, arterial
aneurysms, hemorrhage)
systemic disorders affecting the nervous system (eg, lupus, diabetic neuropathy)
idiopathic disorders affecting the nervous system
congenital disorders, including metabolic (eg, neural tube defects, cerebral palsy,
mental retardation, Down syndrome)
degenerative disorders (eg, peripheral neuropathy, Alzheimer dementia, Parkinson
disease, Huntington disease, amyotrophic lateral sclerosis)
paroxysmal disorders (eg, epilepsy, headache, pain syndromes, and sleep disorders
including narcolepsy, restless legs syndrome/periodic limb movement, circadian
rhythm disorders, parasomnias)
disorders of special senses (eg, blindness, deafness)
psychopathologic disorders, processes and their evaluation
o early-onset disorders (eg, learning disorders)
o disorders related to substance use
o schizophrenia and other psychotic disorders
o mood disorders
o anxiety disorders
o somatoform disorders
o personality disorders
o physical and sexual abuse of children, adults, and elders
o other disorders (eg, dissociative, impulse control, post-traumatic stress disorder)
Principles of therapeutics
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the nervous system
o anesthetics
o hypnotics
o psychopharmacologic agents (eg, anxiolytics, antidepressants, antipsychotic
agents, mood-stabilizing agents)
o anticonvulsants
o analgesics
o stimulants, amphetamines
o antiparkinsonian drugs
o skeletal muscle relaxants, botulinum toxin
25
neuromuscular junction blocking agents (postsynaptic)
antiglaucoma drugs
drugs used to decrease intracranial pressure (eg, mannitol, high-dose
glucocorticoids)
o antimigraine agents
o drugs affecting autonomic nervous system (eg, anticholinesterases)
other therapeutic modalities (eg, radiation, CFS shunting, surgery)
o
o
o
•
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
emotional and behavioral factors (eg, drug abuse, dementia, sleep deprivation,
accident prevention, pets)
influence on person, family, and society (eg, developmental disabilities, dementia,
generation reversal, nutrition, seizures, sleep disorders)
occupational and other environmental risk factors (eg, boxing, carbon monoxide
exposure)
gender and ethnic factors
___________________________________________________
SKIN AND RELATED CONNECTIVE TISSUE
Normal processes
•
•
•
•
•
embryonic development, fetal maturation, and perinatal changes
organ structure and function
cell/tissue structure and function, including barrier functions, thermal regulation,
eccrine function
repair, regeneration, and changes associated with stage of life or ethnicity (eg, senile
purpura, male pattern baldness, postmenopausal hair changes)
skin defense mechanisms and normal flora
Abnormal processes
•
•
•
•
•
infectious, inflammatory, and immunologic disorders
o bacterial infections (eg, acne, cellulitis, carbuncle, abscess, necrotizing fasciitis,
gangrene)
o viral infections (eg, herpes infections, chickenpox, rubella, measles, roseola,
verrucae)
o fungal infections, including mycoses, dermatophytosis (eg, tinea)
o parasitic infections (eg, scabies, lice)
o immune and autoimmune disorders (eg, discoid lupus erythematosus, scleroderma,
dermatomyositis, alopecia, psoriasis, urticaria, allergic dermatosis)
traumatic and mechanical disorders (eg, thermal injury, decubitus ulcers, effects of
ultraviolet light and radiation)
neoplastic disorders
o keratinocytes (eg, seborrheic keratosis, actinic keratosis, basal cell carcinoma,
squamous cell carcinoma, and ichthyosis)
o melanocytes (eg, nevi, melanoma)
o vascular neoplasms (eg, hemangiomas, Kaposi sarcoma)
o other (eg, T-cell lymphoma, skin appendage tumors)
metabolic, regulatory, and structural disorders (eg, vitamin deficiencies,
hypervitaminosis, hyperhidrosis)
vascular disorders (eg, vasculitis, Raynaud disease)
26
•
systemic disorders affecting the skin (eg, Ehlers-Danlos syndrome, Marfan syndrome)
Principles of therapeutics
•
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the skin and connective tissue, including anti-inflammatory agents (eg,
corticosteroids, antihistamines), emollients, sunscreen, retinoids, antimicrobial agents,
cytotoxic and immunologic therapy (eg, methotrexate, PUVA, keratinolytics)
other therapeutic modalities (eg, laser, tattoo removal, cryotherapy)
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
emotional and behavioral factors (eg, sun exposure, acne)
influence on person, family, and society (eg, psoriasis)
occupational and other environmental risk factors
gender and ethnic factors (eg, keloid)
________________________________________________
MUSCULOSKELETAL SYSTEM
Normal processes
•
•
•
•
embryonic development, fetal maturation, and perinatal changes
organ structure and function
cell/tissue structure and function
o biology of bones, joints, tendons, skeletal muscle
o exercise and physical conditioning
repair, regeneration, and changes associated with stage of life
Abnormal processes
•
•
•
•
•
•
•
•
infectious, inflammatory, and immunologic disorders
o infectious disorders (eg, septic arthritis, Lyme disease, osteomyelitis)
o inflammatory disorders (eg, fibrositis, synovitis, tenosynovitis)
o immunologic disorders (eg, rheumatoid arthritis, ankylosing spondylitis,
polymyositis, systemic lupus erythematosus, dermatomyositis, polymyalgia
rheumatica)
traumatic and mechanical disorders (eg, fractures, sprains, strains, dislocations,
repetitive motion injuries)
neoplastic disorders (eg, osteosarcoma, metastatic disease)
metabolic, regulatory, and structural disorders (eg, dwarfism, osteogenesis
imperfecta, osteomalacia, osteoporosis, osteodystrophy, gout, muscular dystrophy)
vascular disorders (eg, polyarteritis nodosa, bone infarcts)
systemic disorders affecting the musculoskeletal system (eg, diabetes mellitus)
idiopathic disorders (eg, Dupuytren contracture, scoliosis, Paget disease)
degenerative disorders (eg, disc disease, osteoarthritis)
Principles of therapeutics
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the musculoskeletal system
o nonsteroidal anti-inflammatory drugs and analgesics
27
muscle relaxants
antigout therapy (eg, allopurinol, colchicine, uricosuric drugs)
immunosuppressive drugs (eg, glucocorticoids, gold, cytotoxic agents)
drugs affecting bone mineralization (eg, bisphosphonates, calcitonin, estrogen
analogs)
other therapeutic modalities (eg, radiation, surgery, casts, rehabilitation)
o
o
o
o
•
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
emotional and behavioral factors (eg, diet, exercise, seat belts, bicycle helmets)
influence on person, family, and society (eg, osteoporosis, fractures in elderly, alcohol
abuse, and fractures)
occupational and other environmental risk factors (eg, athletes, musicians)
gender and ethnic factors (eg, bone mass)
__________________________________________
RESPIRATORY SYSTEM
Normal processes
•
•
•
•
•
embryonic development, fetal maturation, and perinatal changes
organ structure and function
o airways, including mechanics and regulation of breathing
o lung parenchyma, including ventilation, perfusion, gas exchange
o pleura
o nasopharyx and sinuses
cell/tissue structure and function, including surfactant formation, alveolar structure
repair, regeneration, and changes associated with stage of life
pulmonary defense mechanisms and normal flora
Abnormal processes
•
•
•
infectious, inflammatory, and immunologic disorders
o infectious diseases
ƒ infectious diseases of the upper respiratory tract (eg, sinusitis, pharyngitis)
ƒ acute infectious diseases of the lower respiratory tract and pleura and
their complications (eg, pneumonia, bronchiectasis, abscess, empyema)
ƒ chronic infectious diseases of the lower respiratory tract (eg,
Mycobacterium, endemic fungal infections, Nocardia/Actinomyces)
o immunologic disorders
ƒ allergic and hypersensitivity disorders (eg, asthma)
ƒ autoimmune disorders (eg, Wegener granulomatosis, Goodpasture
syndrome)
o inflammatory disorders
ƒ pneumoconioses
ƒ acute and chronic alveolar injury (eg, acute respiratory distress
syndrome, chlorine gas/smoke inhalation)
ƒ obstructive pulmonary disease
ƒ restrictive pulmonary disease (eg, sarcoidosis, idiopathic fibrosis)
traumatic and mechanical disorders (eg, foreign body aspiration, pneumothorax,
atelectasis, sleep apnea)
neoplastic disorders (eg, polyps, bronchogenic carcinoma, mesothelioma, metastatic
tumors)
28
•
•
•
metabolic, regulatory, and structural disorders (eg, hypoventilation, disorders of gas
exchange, ventilation-perfusion imbalance, neonatal respiratory distress syndrome)
vascular and circulatory disorders (eg, thromboembolic disease, pulmonary
hypertension, pulmonary edema, pleural effusion)
systemic disorders affecting the respiratory system
Principles of therapeutics
•
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the respiratory system (eg, decongestants, cough suppressants, expectorants,
mucolytics; bronchodilator drugs; anti-inflammatory and cytotoxic drugs;
antimicrobial agents; antineoplastic agents)
other therapeutic modalities (eg, oxygen therapy, nasal CPAP, mechanical ventilation,
physical therapy, surgical procedures, including transplantation)
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
emotional and behavioral factors (eg, smoking, substance abuse, pets, and allergies)
influence on person, family, and society (eg, tuberculosis, asthma, chronic obstructive
pulmonary disease, school issues, protective parents, family smoking)
occupational and other environmental risk factors
gender and ethnic factors (eg, sarcoidosis, lung cancer)
_________________________________________
CARDIOVASCULAR SYSTEM
Normal processes
•
•
•
•
embryonic development, fetal maturation, and perinatal changes
organ structure and function
o chambers, valves
o cardiac cycle, mechanics, heart sounds, cardiac conduction
o hemodynamics, including systemic, pulmonary, coronary, and blood volume
o circulation in specific vascular beds
cell/tissue structure and function
o heart muscle, metabolism, oxygen consumption, biochemistry, and secretory
function (eg, atrial natriuretic peptide)
o endothelium and secretory function, vascular smooth muscle, microcirculation,
and lymph flow
o mechanisms of atherosclerosis
o neural and hormonal regulation of the heart, blood vessels, and blood volume,
including responses to change in posture, exercise, and tissue metabolism
repair, regeneration, and changes associated with stage of life
Abnormal processes
•
•
•
infectious, inflammatory, and immunologic disorders
o infectious disorders (eg, endocarditis, myocarditis, pericarditis)
o inflammatory and immunologic disorders (eg, acute rheumatic fever, systemic
lupus erythematosus, vasculitis, temporal arteritis)
traumatic and mechanical disorders (eg, tamponade, valvular disease, obstructive
cardiomyopathy)
neoplastic disorders
29
•
•
•
•
metabolic and regulatory disorders (eg, dysrhythmias, systolic and diastolic
dysfunction, low- and high-output heart failure, cor pulmonale, systemic hypertension,
ischemic heart disease, myocardial infarction, systemic hypotension, and shock)
vascular disorders (eg, aneurysms, occlusions, varicosities, atherosclerosis)
systemic diseases affecting the cardiovascular system (eg, amyloidosis, aortic
dissection with Marfan syndrome, scleroderma)
congenital disorders of the heart and central vessels
Principles of therapeutics
•
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the cardiovascular system
o coronary and peripheral vasodilators
o antiarrhythmic drugs
o antihypertensive drugs
o measures used to combat hypotension and shock
o drugs affecting cholesterol and lipid metabolism
o drugs affecting blood coagulation, thrombolytic agents
o inotropic agents and treatment of heart failure
o immunosuppressive and antimicrobial drugs
o drugs to treat peripheral arterial disease
other therapeutic modalities (eg, pacemakers, angioplasty, valves, grafts, other
surgical procedures)
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
emotional and behavioral factors (eg, smoking, alcohol, ischemic heart disease,
obesity, exercise, diet)
influence on person, family, and society (eg, altered lifestyle)
occupational and other environmental risk factors (eg, stress)
gender and ethnic factors (eg, hypertension)
GASTROINTESTINAL SYSTEM
Normal processes
•
•
•
•
•
embryonic development, fetal maturation, and perinatal changes
organ structure and function, including alimentary canal, liver and biliary system,
salivary glands and exocrine pancreas, motility, and digestion and absorption
cell/tissue structure and function
o endocrine and neural regulatory functions, including GI hormones
o salivary, gastrointestinal, pancreatic, hepatic secretory products, including
enzymes, proteins, bile salts, and processes
o synthetic and metabolic functions of hepatocytes
repair, regeneration, and changes associated with stage of life
gastrointestinal defense mechanisms and normal flora
Abnormal processes
•
infectious, inflammatory, and immunologic disorders
30
infectious disorders (eg, peritonitis, hepatitis, gingivostomatitis, peptic ulcer,
gastritis, esophagitis, traveler’s diarrhea, food poisoning)
o inflammatory disorders (eg, cholecystitis, pancreatitis)
o immunologic disorders (eg, Crohn disease, ulcerative colitis)
traumatic and mechanical disorders
o malocclusion
o hiatus hernia
o obstruction (eg, volvulus, intussusception, esophageal atresia, annular
pancreas, postsurgical obstruction)
o perforation of hollow viscus and blunt trauma
o inguinal, femoral, and abdominal wall hernias
o esophageal and intestinal diverticula (eg, Meckel diverticulum)
neoplastic disorders, including benign and malignant
metabolic and regulatory disorders (eg, motility disorders, malabsorption, hepatic
failure, cholelithiasis)
vascular disorders (eg, portal hypertension, hemorrhoids, ischemia, angiodysplasia)
systemic disorders affecting the gastrointestinal system
o
•
•
•
•
•
Principles of therapeutics
•
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the gastrointestinal system
o treatment and prophylaxis of peptic ulcer disease and gastroesophageal reflux (eg,
antacids, antisecretory drugs, motility drugs, mucosal protective agents, antibiotics)
o drugs to alter gastrointestinal motility (eg, cathartics, antidiarrheal drugs,
antiemetic drugs, prokinetic drugs)
o fluid replacement (eg, oral rehydration)
o pancreatic replacement therapy and treatment of pancreatitis
o drugs for treatment of hepatic failure (eg, lactulose) and biliary disease (eg,
drugs to dissolve gallstones)
o anti-inflammatory, immunosuppressive, antineoplastic, and antimicrobial drugs
other therapeutic modalities (eg, surgical procedures, stents, feeding tubes)
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
emotional and behavioral factors (eg, peptic ulcer, encopresis, Monday morning stomach)
influence on person, family, and society (eg, inflammatory bowel disease, irritable
bowel disease, pancreatitis and alcohol, chronic laxative abuse)
occupational and other environmental risk factors
gender and ethnic factors (eg, diets)
________________________________________
RENAL/URINARY SYSTEM
Normal processes
•
•
embryonic development, fetal maturation, and perinatal changes
organ structure and function
o kidneys, ureters, bladder, urethra
o glomerular filtration and hemodynamics
o tubular reabsorption and secretion, including transport processes and proteins
o urinary concentration and dilution
o renal mechanisms in acid-base balance
31
•
•
o renal mechanisms in body fluid homeostasis
o micturition
cell/tissue structure and function, including renal metabolism and oxygen
consumption, hormones produced by or acting on the kidney
repair, regeneration, and changes associated with stage of life
Abnormal processes
•
•
•
•
•
•
infectious, inflammatory, and immunologic disorders
o infectious disorders
ƒ upper urinary tract (eg, pyelonephritis, papillary necrosis)
ƒ lower urinary tract (eg, cystitis, urethritis)
o inflammatory and immunologic disorders
ƒ glomerular disorders (eg, glomerulonephritis, nephrotic syndrome, and
IgA nephropathy)
ƒ tubular interstitial disease (eg, interstitial nephritis, transplant rejection)
traumatic and mechanical disorders (eg, obstructive uropathy)
neoplastic disorders, including primary (eg, renal, urinary bladder and collecting
system) and metastases
metabolic and regulatory disorders
o renal failure, acute and chronic (eg, acute tubular necrosis)
o tubular and collecting duct disorders (eg, Fanconi syndrome, renal tubular
acidosis, nephrogenic diabetes insipidus, polycystic kidney disease)
o renal calculi
vascular disorders (eg, renal artery stenosis)
systemic diseases affecting the renal system (eg, diabetes mellitus, hepatitis,
amyloidosis, systemic lupus erythematosus, Wegener granulomatosis)
Principles of therapeutics
•
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the renal and urinary system
o diuretics, antidiuretic drugs
o drugs and fluids used to treat volume, electrolyte, and acid-base disorders
o drugs used to enhance renal perfusion (eg, dopamine)
o anti-inflammatory, antimicrobial, immunosuppressive, and antineoplastic drugs
o drugs used to treat lower urinary tract system (eg, incontinence, bladder
function, benign prostatic hyperplasia)
other therapeutic modalities (eg, dialysis, renal transplantation)
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
emotional and behavioral factors (eg, drug-induced interstitial nephritis, diet)
influence on person, family, and society (eg, hemodialysis, living related kidney
donation, transplants)
occupational and other environmental risk factors (eg, heavy metals)
gender and ethnic factors (eg, disease progression, urinary tract infections)
____________________________________________
REPRODUCTIVE SYSTEM
Normal processes
32
•
•
•
•
embryonic development, fetal maturation, and perinatal changes
organ structure and function
o female structure, including breast
o female function (eg, menstrual cycle, puberty, menopause)
o male structure
o male function (eg, spermatogenesis, puberty)
o intercourse, orgasm
o pregnancy, including labor and delivery, the puerperium, lactation, gestational
uterus, placenta
cell/tissue structure and function, including hypothalamic-pituitary-gonadal axis, sex
steroids, and gestational hormones
reproductive system defense mechanisms and normal flora
Abnormal processes
•
•
•
•
•
•
infectious, inflammatory, and immunologic disorders (eg, toxic shock syndrome,
breast abscess, orchitis, sexually transmitted diseases, autoimmune hypogonadism,
cystic mastitis)
traumatic and mechanical disorders (eg, female incontinence, torsion of testis, varicocele)
neoplastic disorders (eg, female reproductive, male reproductive, breast [including
fibrocystic changes], trophoblastic disease)
metabolic and regulatory processes
o female (eg, anovulation, infertility, polycystic ovaries, endometriosis, orgasmic
dysfunction, delayed and premature puberty)
ƒ menopausal syndrome
o male (eg, infertility, impotence, gynecomastia, delayed and premature puberty)
ƒ benign prostatic hyperplasia
systemic disorders affecting reproductive function (eg, obesity, myotonic dystrophy,
cirrhosis, renal failure)
disorders relating to pregnancy, the puerperium, and the postpartum period
o obstetric problems (eg, ectopic pregnancy, third-trimester bleeding)
o complications affecting other organ systems (eg, eclampsia, gestational
diabetes, thyroid disorders)
o disorders associated with the puerperium (eg, postpartum hemorrhage, sepsis,
depression)
o antepartum, intrapartum, postpartum disorders of the fetus (eg, prematurity,
postmaturity, cord compression, macrosomia)
Principles of therapeutics
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the reproductive system and management of normal reproductive function
o female reproductive tract
ƒ fertility drugs
ƒ oral contraception, other methods of contraception (eg, condoms)
ƒ estrogen, progestogen replacement, treatment of menopause
ƒ stimulants and inhibitors of labor
ƒ estrogen and progesterone antagonists
ƒ stimulators and inhibitors of lactation
o male reproductive tract
ƒ fertility drugs
ƒ androgen replacement and antagonists
o gonadotropin-releasing hormone and gonadotropin replacement
o abortifacients
o antimicrobials
33
•
o antineoplastics
o restoration of potency
other therapeutic modalities affecting the reproductive system (eg, tampons)
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
•
•
emotional and behavioral factors (eg, sexually transmitted diseases)
influence on person, family, and society (eg, infertility)
occupational and other environmental risk factors (eg, radiation)
family planning and pregnancy (eg, unwanted)
gender identity, sexual orientation, sexuality, libido
effects of traumatic stress syndrome, violence, rape, child abuse
______________________________________________
ENDOCRINE SYSTEM
Normal processes
•
•
•
•
embryonic development, fetal maturation, and perinatal changes
organ structure and function
o hypothalamus, posterior and anterior pituitary gland
o thyroid gland
o parathyroid glands
o adrenal cortex, adrenal medulla
o pancreatic islets
o ovary and testis
o adipose tissue
cell/tissue structure and function, including hormone synthesis, secretion, action, and
metabolism
o peptide hormones
o steroid hormones, including vitamin D
o thyroid hormones
o catecholamine hormones
o renin-angiotensin system
repair, regeneration, and changes associated with stage of life
Abnormal processes
•
•
•
•
•
•
•
infectious, inflammatory, and immunologic disorders (eg, subacute thyroiditis, Graves
disease, sarcoidosis)
traumatic and mechanical disorders
neoplastic disorders (eg, pituitary, thyroid, parathyroid, adrenal cortex, pancreatic
islets, neural crest, pheochromocytoma)
metabolic and regulatory processes (eg, diabetes mellitus, pituitary, hypothalamus,
thyroid, parathyroid, pancreatic islet disorders, adrenal disorders)
vascular disorders (eg, pituitary apoplexy)
systemic disorders affecting the endocrine system
idiopathic disorders (eg, hirsutism)
Principles of therapeutics
•
mechanisms of action, use, and adverse effects of drugs for treatment of disorders of
the endocrine system
34
•
o
o
o
o
o
o
other
hormones and hormone analogs
stimulators of hormone production (eg, sulfonylureas)
inhibitors of hormone production (eg, thiouracils)
hormone antagonists
potentiators of hormone action (eg, thiazolidinediones)
antiobesity agents
therapeutic modalities (eg, surgery, radiation)
Gender, ethnic, and behavioral considerations affecting disease treatment and
prevention, including psychosocial, cultural, occupational, and environmental
•
•
•
•
emotional and behavioral factors (eg, compliance in diabetes mellitus, factitious use of
insulin, psychogenic polydipsia)
influence on person, family, and society
occupational and other environmental risk factors (eg, radiation exposure, iodine deficiency)
gender and ethnic factors
APPENDIX B
28-day Step 1 Study Schedule from Georgetown School of Medicine
35
36
Day 1
General Overview & Begin Biochemistry
Objective
Self Assessment
Assignments
Complete sample test materials
from NBME
General overview of
material to be covered
Read Through Section Introductory First Aid
Material from First Aid , and Skim
Section II
Learn about the test, and how to best use First Aid as a
resource.
Basic Metabolism
Chapters 5 & 6, and sample
questions at end of each chapter.
Bookmark figure 6.2 and refer to it
before studying each biochemical
pathway.
Lippincott's Biochemistry
Understand the role of ATP. Know where the electron
transport chain, and oxidative phosphorylation occur and how
they fit into the overall metabolic scheme. Review the main
classes of cell receptors and signaling mechanisms.
2.5 hrs
Day 2
Continue Biochemistry
Objective
Structure & Metabolism
of Carbohydrates
Assignments
Chapters 11, 12, 13 & questions
Source
Lippincott's Biochemistry
Details
Review the digestion of sugars and disorders of fructose,
galactose, and lactose metabolism. Spend more time on
glycogen metabolism, its regulation, and related disorders.
Use Figure 13.7 to memorize the glycogen storage diseases.
Est. Time
3 hrs
Glycolysis
Chapter 7 & questions
Lippincott's Biochemistry
Know the start and end points, hormonal regulation, energy
yield, and various fates of pyruvate.
1.5 hrs
Gluconeogenesis
Chapter 8 & questions, Review
Figure 6.2 again!
Lippincott's Biochemistry
Study it by comparison to glycolysis. Know the reactions &
regulation unique to gluconeogenesis.
1 hr
Citric Acid Cycle
Chapter 9 & questions
Lippincott's Biochemistry
Focus on start and end points, place in overall metabolism,
and regulation.
1 hr
Lippincott's Biochemistry
Skim reactions and focus on G6PD deficiency
1 hr
Hexose Monophosphate Chapter 10 & questions
Shunt
Source
Details
NBME CD-ROM or download Complete 150 sample questions, and note trouble areas to
from www.nbme.org
focus on.
Est. Time
3 hrs
4 hrs
Day 3
Continue Biochemistry
Objective
Lipid Metabolism
Assignments
Chapter 17 & questions
Source
Lippincott's Biochemistry
Details
Focus on roles of pancreatic lipase and bile salts. Fatty acid
metabolism: know where synthesis occurs, relationship to
glucose metabolism, and role of triacylglycerols for storage of
fatty acids. Review mobilization of and oxidation of fatty acids.
Finally, carefully review eicosanoids, focusing on figure 17.20
Phospholipids &
Glycolipids
Skim Chapters 18, 19
Lippincott's Biochemistry
Gain a sense of what these are, but do not memorize
structures or pathways. Focus on related disorders instead,
using figures 18.10, 19.4.
1 hr
Cholesterol & Steroid
Metabolism
Chapter 20, Sect. I-VII
Lippincott's Biochemistry
Review cholesterol synthesis (esp. the role of HMG CoA
reductase) and its regulation. Understand synthesis and role
of bile salts. Review biology of lipoproteins and their role in
atherogenesis. Key figures are 20.12, 20.14, 20.16.
2 hrs
Steroid Hormones
Chapter 20, Sect. VII
Lippincott's Biochemistry
Know the major enzyme deficiencies in steroid synthesis and
know where steroid receptors act in the cell. Study figures
20.19, 20.20.
1 hr
Day 4
Continue Biochemistry
Objective
Protein & Enzymes
Assignments
Chapters 1-4 & questions
Source
Lippincott's Biochemistry
Details
Become familiar with basic properties of amino acids, levels of
protein structure, hemoglobin, and collagen. For enzymes,
focus on appreciating ( not memorizing) the Michaelis-Menten
equation, types of enzyme inhibition, modes of enzyme
regulation, and the use of enzymes in clinical diagnosis.
Est. Time
4 hrs
Digestion of Dietary
Proteins and Nitrogen
Metabolism
Chapter 21 & questions
Lippincott's Biochemistry
Learn the various pancreatic proteases and how they are
regulated. Understand transamination and oxidative
deamination, but don't memorize pathways. Spend more time
on urea cycle and ammonia metabolism focusing on figures
21.4, 21.11, 21.17.
2 hrs
Est. Time
3 hrs
Metabolism of Amino
Acid Carbon Skeletons
Chapter 22
Lippincott's Biochemistry
Emphasize relevant disorders. Focus on figures 22.2, 22.16.
1 hr
Day 5
Continue Biochemistry
Objective
Assignments
Heme, Porphyrins,
Chapter 23
Serotonin, Histamine and
Catecholamines
Source
Lippincott's Biochemistry
Details
Focus on the porphyrias and bilirubin metabolism. Focus on
figures 23.5 and 23.7.
Est. Time
1 hr
Glycosaminoglycans and Skim Chapters 14, 15
Glycoproteins
Lippincott's Biochemistry
Know what they are and know the related disorders. Don't get
too bogged down in details - just study figures 14.12 and 15.4,
then move on.
1 hr
Nutrition and Vitamins
Chapters 27, 28
Lippincott's Biochemistry
Know the daily energy requirements and vitamin deficiences.
Focus on absorption of vitamin B12 and pernicious anemia, as
well as vitamin D. Focus on figures 28.12, and 28.18.
3 hrs
Nucleotide Metabolism
Chapter 29
Lippincott's Biochemistry
Understand differences between de novo and salvage purine
synthesis. Study purine degradation and the pathophysiology
of gout and ADA deficiency. Study figures 29.7, 29.9, 29.10.
2 hrs
Day 6
Finish Biochemistry
Objective
Integrative Metabolism
Assignments
Chapters 24, 25, 26
Source
Lippincott's Biochemistry
Details
Synthesize the information you've reviewed this week by
studying insulin, glucagon, the fed/starved states, and the
metabolic aspects of diabetes mellitus. Time spent on these
topics will be VERY WORTHWHILE.
Est. Time
5 hrs
Day 7
General Pharmacology
Objective
Pharmacokinetics &
Pharmacodynamics
Assignments
Chapters 1,2
Source
Lippincott's Pharmacology
Details
Study general principles of pharmacology. Specific agents will
be covered with relevant organ systems.
Est. Time
2 hrs
Autonomic Drugs
Chapters 3-7
Lippincott's Pharmacology
Know different types of adrenergic and cholinergic receptors
cold. Study figures 3.3, 3.6, 4.2, 5.2, 6.15, 7.10.
5 hrs
Day 8
Begin Microbiology
Objective
Bacteria
Assignments
Chapters 1-15
Source
Clinical Microbiology made
Ridiculously Simple
Details
Rely heavily on charts. Start building buzzword associations
with characterisitics of each organism and how is identified
(with a special stain, culture medium, etc.) Also, time spent
with Qbank questions here will be golden.
Est. Time
10 hrs
Day 9
Continue Microbiology
Objective
Antibiotics
Assignments
Chapters 28-33
Source
Lippincott's Pharmacology
Details
This is high yield material, read, review and continue to do
Qbank questions to keep building buzzword associations.
Est. Time
6 hrs
Fungi
Chapter 20
Clinical Microbiology made
Ridiculously Simple
This is high yield material, read, review and continue to do
Qbank questions to keep building buzzword associations.
1.5 hrs
Antifungals
Chapter 34
Lippincott's Pharmacology
This is high yield material, read, review and continue to do
Qbank questions to keep building buzzword associations.
1 hr
Day 10
Finish Microbiology
Objective
Viruses
Assignments
Chapters 22-29
Source
Clinical Microbiology made
Ridiculously Simple
Details
This is high yield material, read, review and continue to do
Qbank questions to keep building buzzword associations.
Est. Time
6 hrs
Antivirals
Chapter 37
Lippincott's Pharmacology
Review antiviral agents, particularly mechanisms of action.
1 hr
Parasites
Chapters 30, 31
Clinical Microbiology made
Ridiculously Simple
This is high yield material, read, review and continue to do
Qbank questions to keep building buzzword associations.
2 hrs
Antiparasitics
Chapters 35, 36
Lippincott's Pharmacology
Review antiprotozoal and antihelminthic agents, particularly
multi-drug regimens
1 hr
Underground Clinical
Vignettes - Microbiology
Good for group study, and another way to keep sharpening
buzzword recall.
3 hrs
Clinical Vignettes
Day 11
Immunology & General Pathology
Objective
Review Immunology
Assignments
Part VII
Source
Medical Microbiology &
Immunology: Examination
and Board Review
Details
Excellent, concise summary of immunology.
Cellular Injury
Chapter 1
BRS Pathology
Focus on mechanisms of cellular injury and differences
between necrosis & apoptosis
Inflammation
Chapter 2
BRS Pathology
Distinguish mechanisms and histologic characteristics of acute
vs. chronic inflammation.
1 hr
Hemostasis
Chapter 3
BRS Pathology
Know coagulation cascade, types of embolism, and types of
shock.
1 hr
Genetic Disorders
Chapter 4
BRS Pathology
Immune Dysfunction
Chapter 5
BRS Pathology
Focus on immune deficiency disorders, autoimmunity, and
collagen vascular disease
Neoplasia
Chapter 6
BRS Pathology
Distinguish between tumor suppressor genes & oncogenes,
know mechanisms of carcinogenesis, and the properties of
malignant cells.
Environmental Pathology Chapter 7
BRS Pathology
Quickly review
0.5 hr
Nutritional Disorders
BRS Pathology
Review vitamin deficiencies to refresh biochem memory.
0.5 hr
Details
Know mechanisms of DNA repair, different types/roles of
RNA, mechanism of translation, and molecular biology
techniques. Focus on figures 30.2, 30.16, 30.19, 30.22,
31.11, 32.9.
Est. Time
3.5 hrs
Chapter 8
Est. Time
4 hrs
0.5 hr
0.5 hr
Day 12
Cellular Biology
Objective
DNA, RNA, Proteins
Assignments
Chapters 30 - 33
Source
Lippincott's Biochemistry
Cell Membranes
Chapter 1
BRS Cell Biology & Histology Know properties of membranes and membrane proteins.
Nucleus
Chapter 2
BRS Cell Biology & Histology Know contents of nuclei, and RNA import/export mechanisms.
0.5 hr
1 hr
1 hr
0.5 hr
Cytoplasm
Chapter 3
BRS Cell Biology & Histology Review organelles and function
Extracellular Matrix
Chapter 4
BRS Cell Biology & Histology Know different types of collagen, basement membrane
composition, and other ECM components.
Epithelia & Connective
Tissue
Chapters 5,6
BRS Cell Biology & Histology Review types of epithelia and locations of each. Review
connective tissue focusing on bone histology.
0.5 hr
1 hr
1.5 hrs
Day 13
Cellular Physiology & General Embryology
Objective
Cell Physiology
Assignments
Chapter 1
Source
BRS Physiology
Details
Know mechanisms of ion transport, action potentials.
Embryology
Chapters 1-4
BRS Embryology
Know stages from zygote through embryo. Review 3 Germ
cell layers and their derivative tissues.
Birth Defects
Chapters 17, 18
BRS Embryology
Exam
Diagnostic Test
Board Simulator Series Body Systems Review
Good opportunity to identify weaknesses in organ system
areas.
Day 14
Thorax
Objective
Embryology of thorax
Assignments
Chapters 5, 11
Source
BRS Embryology
Details
Know the congenital cardiac abnormalities, and fetal
circulation. Also understand the stages of fetal lung
maturation.
Thoracic Anatomy
Chapter 2
(Also use
Netter's Atlas for reference)
High Yield Gross Anatomy
3 hrs
Histology of thoracic
viscera
Chapters 11, 15
BRS Cell Biology & Histology Be able to distinguish arteries and veins in cross section.
Understand architecture of the gas diffusion barrier in the
lungs.
1 hr
Est. Time
1 hr
3 hrs
1.5 hrs
2 hrs
Est. Time
3.5 hrs
Day 15
Cardiovascular System
Objective
Cardiovascular
Physiology
Assignments
Chapter 3
Source
BRS Physiology
Details
Review hemodynamics, electrophysiology, cardiac cycle,
blood pressure regulation, responses to exercise, volume loss,
altitude. Understand pre-load, after-load, Frank-Starling curve,
and conduction.
Cardiac Pathology
Chapter 10
BRS Pathology
Study this chapter thoroughly.
1.5 hrs
Vascular Pathology
Chapter 9
BRS Pathology
Study this chapter thoroughly.
1 hr
Cardiovascular
Pharmacology
Chapters 16-19, 21
Lippincott's Pharmacology
Know drugs used to treat CHF, HTN, arrhythmias, angina, and
hyperlipidemia.
5 hrs
Day 16
Respiratory System & Begin Hematology
Objective
Respiratory Physiology
Assignments
Chapter 4
Source
BRS Physiology
Details
Know the various lung volume measurements, and
understand acid - base disorders.
Respiratory Pathology
Chapter 14
BRS Pathology
Study this chapter thoroughly.
Respiratory
Pharmacology
Chapter 22
Lippincott's Pharmacology
Clinical Vignettes
Volume 1: Cases 1-19, Volume 2:
Cases 52-66
Underground Clinical
Vignettes - Patho-physiology
Histology of Bone
Marrow, Spleen, &
Lymph Nodes
Chapters 10, 12 (and a histologic
atlas for further review)
BRS Cell Biology & Histology Familiarize yourself with lymph node architecture, and
understand the spleen. Understand RBC, WBC, platelet
lineages.
Est. Time
1.5 hrs
Est. Time
1.5 hrs
1.5 hrs
0.5 hrs
Good opportunity for group review.
2 hrs
3 hrs
Day 17
Finish Hematology
Objective
Anemia
Assignments
Chapter 11
Source
BRS Pathology
Details
Know pathophysiology and lab differentiation of various
etiologies of anemias.
Hempatopoietic &
Lymphoreticular
Neoplasia
Chapter 12
BRS Pathology
Distinguish between leukemia & lymphoma. Understand
different types of each.
2 hrs
Hemorrhagic Disorders
Chapter 13
BRS Pathology
Know how to diagnose and correct each disorder.
1 hr
Est. Time
2 hrs
Drugs affecting
coagulation
Chapter 20
Lippincott's Pharmacology
1.5 hrs
Anticancer Drugs
Chapter 38
Lippincott's Pharmacology
1.5 hrs
Clinical Vignettes
Volume 1: Cases 74-102
Underground Clinical
Vignettes - Patho-physiology
2 hrs
Day 18
Gastrointestinal System
Objective
Embryology of Gut and
Body Cavities
Assignments
Chapters 10, 16
Source
BRS Embryology
Abdominal Anatomy
Chapter 3 (Also refer to Netter's
atlas)
High Yield Gross Anatomy
Histology of GI Tract
Chapter 6
BRS Cell Biology & Histology Know layers of gut wall. Understand liver structure, portal
blood flow, and bile flow.
GI Physiology
Chapter 6
BRS Physiology
Understand innervation of gut and gut hormones
Day 19
Gastrointestinal System
Objective
Gastrointestinal
Pathology
Assignments
Chapter 15
Source
BRS Pathology
Details
Study this chapter thoroughly.
Est. Time
2 hrs
Hepatobiliary and
Exocrine Pancreatic
Pathology
Chapter 16
BRS Pathology
Study this chapter thoroughly.
2 hrs
GI Pharmacology
Chapter 24
Lippincott's Pharmacology
Know GI drugs as well as antiemetics.
2 hrs
Clinical Vignettes
Volume 1: Cases 40-73
Underground Clinical
Vignettes - Patho-physiology
Good opportunity for group review.
2 hrs
Source
Details
Day 20
GenitoUrinary System
Objective
Assignments
Details
Understand rotation of gut and related malformations. Know
which structures are derived of foregut, midgut, hindgut, in
addition to vascular supplies.
Est. Time
1.5 hrs
2 hrs
1.5 hrs
1 hr
Est. Time
Embryology of GU
Organs
Chapters 6, 13, 14
BRS Embryology
3 hrs
Anatomy of Pelvis and
Perineum
Chapters 4, 5
High Yield Gross Anatomy
3 hrs
Histology of GU Organs
Chapters 18, 19, 20
BRS Cell Biology & Histology Know the maturation sequence of spermatocytes and ovarian
follicles. Know the anatomy of the nephron.
3 hrs
Day 21
GenitoUrinary System
Objective
Renal Physiology
Assignments
Chapter 5
Source
BRS Physiology
Diuretics
Chapter 23
Lippincott's Pharmacology
Renal & Urinary Tract
Pathology
Chapter 17
BRS Pathology
Study this chapter thoroughly.
Male Reproductive
Pathology
Chapter 18
BRS Pathology
Know the different types of testicular cancer, and the biology
of BPH and prostate cancer
Female Reproductive
Pathology
Chapter 19
BRS Pathology
Understand cervical, uterine cancer.
Clinical Vignettes
Volume 2: Cases 30-51, and 83-103 Underground Clinical
Vignettes - Patho-physiology
Day 22
Endocrine System
Objective
Histology of Endocrine
System
Assignments
Chapter 13
Source
BRS Embryology
Details
Review structure of endocrine organs, and use an atlas for
additional pictures.
Physiology
Chapter 7
BRS Physiology
Know hormonal axes
2.5 hrs
Insulin and oral
hypoglycemics
Chapter 26
Lippincott's Pharmacology
Know different types of insulin and their half lives. Know
classes of oral hypoglycemics and side effects.
1.5 hrs
Steroid Hormones
Chapter 27
Lippincott's Pharmacology
Details
Est. Time
1.5 hrs
1.5 hrs
Good opportunity for group review.
1.5 hrs
1 hr
1.5 hrs
2 hrs
Est. Time
1 hr
1 hr
Clinical Vignettes
Volume 1: Cases 25-38
Underground Clinical
Vignettes - Patho-physiology
Good opportunity for group review.
EXAM
Body Systems III -
Board Simulator Series Body Systems Review
Tough questions, but great explanations. Well worth the time
to push yourself a bit and solidify the material you've learned.
Day 23
Nervous System
Objective
Assignments
Embryology of Head,
Chapters 7, 8, 9, 10
Neck, & Nervous System
Source
BRS Embryology
Details
Know branchial arches/clefts and their derivatives.
Understand the transition from neural plate to mature CNS.
Know fate of neural crest cells.
Head & Neck Anatomy
Chapter 8 (also refer to Netter)
High Yield Gross Anatomy
2 hrs
Neuroanatomy
Chapters 1-23
High Yield Neuroanatomy
6hrs
Test 1
2 hrs
1.5 hrs
Est. Time
3 hrs
Day 24
Nervous System
Objective
Neurophysiology
Assignments
Chapter 2
Source
BRS Physiology
Details
Understand Synaptic transmission and axonal conduction
Neuropathology
Chapter 23
BRS Pathology
Know types of CNS infections, tumors, and vascular disorders.
2 hrs
Clinical Vignettes
Volume 2: Cases 45-61, Anatomy
Cases 40-56.
Underground Clinical
Vignettes - Patho-physiology
Good opportunity for group review.
2 hrs
Neuropharmacology
Chapters 8, 10, 11, 14, 15
Lippincott's Pharmacology
Review drugs used to treat epilepsy, Parkinson's. Also review
anesthetics and analgesics.
Day 25
Musculoskeletal System
Objective
Embryology
Assignments
Chapter 15
Source
BRS Embryology
Details
Anatomy of Limbs and
Back
Chapters 1, 6, 7 (also use Netter)
High Yield Gross Anatomy
Histology
Chapters 7, 8, 10
BRS Cell Biology & Histology Review histology of skin, muscle, bone, and cartilage
Est. Time
2 hrs
3.5 hrs
Est. Time
1 hr
3.5 hours
2 hrs
Anti-Inflammatory Agents Chapters 39, 40
and Autocoids
Lippincott's Pharmacology
2 hrs
Day 26
Musculoskeletal System
Objective
Dermatologic Pathology
Assignments
Chapter 21
Source
BRS Pathology
Musculoskeletal
Pathology
Chapter 22
BRS Pathology
Clinical Vignettes
Volume 3: Cases 9-18, and 96-104. Underground Clinical
Vignettes - Patho-physiology
Also Anatomy: Cases 62-84
Good opportunity for group review.
2 hrs
Exam
Body Systems II - Test 1
Tough questions, but great explanations. Well worth the time
to push yourself a bit and solidify the material you've learned.
2 hrs
Board Simulator Series Body Systems Review
Day 27
Behavioral Sciences & Biostatistics
Objective
Clinical Vignettes
Assignments
All cases
Source
Underground Clinical
Vignettes - Behavioral Sci.
Psychotropic Drugs
Chapters 9-12, 13
Lippincott's Pharmacology
Biostatistics
Read entire book
High Yield Biostatistics
Day 28
Final Review & Exam Logistics
Objective
Final Review
Assignments
Exam Logistics
Rest & Relax
Source
Details
Focus on malignancies (melanoma, SCC, BCC) and refer to a
dermatology atlas so that you can differentiate between them.
Est. Time
1.5 hrs
1.5 hrs
Details
Est. Time
3 hrs
3 hrs
Understand sensitivity, specificity, PPV, NPV. Be prepared to
calculate risk, odds ratios, etc.
4 hrs
Details
Review Any Remaining Topics and finish practice questions.
Est. Time
4 hrs
Prepare exam bag - with ID, ticket, directions to center, lunch.
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